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Chapter 8-Video

Chapter 8-Video. Overview . Using video. How video works? Broadcast video standards. Analog video. Overview . Digital video. Video recording and tape formats. Shooting and editing video. Optimizing video files for CD-ROM. Using Video .

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Chapter 8-Video

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  1. Chapter 8-Video

  2. Overview • Using video. • How video works? • Broadcast video standards. • Analog video.

  3. Overview • Digital video. • Video recording and tape formats. • Shooting and editing video. • Optimizing video files for CD-ROM.

  4. Using Video • Video is an excellent tool for delivering multimedia. • Video places the highest performance demand on computer and its memory and storage. • Digital video has replaced analog as the method of choice for making and delivering video for multimedia.

  5. Using Video • Digital video device produces excellent finished products at a fraction of the cost of analog. • Digital video eliminates the image-degrading analog-to-digital conversion. • Many digital video sources exist, but getting the rights can be difficult, time-consuming, and expensive.

  6. Figure 8-1 Diagram of tape path across the video head for analog recording

  7. How Video Works • Light reflected from an object through the camera’s lens is converted into electronic signal by charge-coupled device (CCD). • This electronic signal contains three channels of color information and synchronization pulses (sync). • Several video standards exist that deal with the amount of separation between the components of the signal.

  8. Figure 8-2 Diagram of tape path across the video head for digital recording

  9. Broadcast Video Standards National Television Standards Committee (NTSC): • These standards define a method for encoding information into electronic signal that creates a television picture. • It has screen resolution of 525 horizontal scan lines and a scan rate of 30 frames per second.

  10. Broadcast Video Standards Phase Alternate Line (PAL) and Sequential Color and Memory (SECAM): • PAL has a screen resolution of 625 horizontal lines and a scan rate of 25 frames per second. • SECAM has a screen resolution of 625 horizontal lines and is a 50 Hz system. • SECAM differs from NTSC and PAL color systems in its basic technology and broadcast method.

  11. Broadcast Video Standards Advanced Television Systems Committee (ATSC) Digital Television (DTV): • This digital standard provides TV stations with sufficient bandwidth to present four or five Standard Television (STV) signals or one High Definition TV (HDTV) signal. • This standard allows for transmission of data to computers and for new Advanced TV (ATV) interactive services.

  12. Analog Video Overscan and the safe title area: • Analog television sets remain the most widely installed platforms for delivering and viewing video. • Overscan occurs when an image is larger than the standard TV screen.

  13. Analog Video Overscan and the safe title area (continued): • Underscan occurs when computer monitors display a smaller image on picture tube. • The safe title area is where the image will not be affected by overscanning, even in the worst conditions.

  14. Analog Video Video color: • Television sets use composite input. Hence colors are less pure and less accurate than computers using RGB component. • NTSC television uses a limited color palette and restricted luminance (brightness) levels and black levels. Figure 8-4. This SMPTE color bar pattern (a) can be used for calibration at the beginning of a videotape. The RGB values of each bar are included (b) so you can make your own screen using an image-editing application

  15. Analog Video Video color (continued): • Some colors generated by a computer that display fine on a RGB monitor may be illegal for display on a NTSC TV. • While producing a multimedia project, consider whether it will be played on a RGB monitor or a conventional television set.

  16. Analog Video Interlacing effects: • In television, the electron beam makes two passes on the screen while drawing a single video frame. • It first lays down all the odd-numbered lines, and then all the even-numbered lines, hence they are interlaced. • While capturing images from a video signal, they can be filtered through a de-interlacing filter provided by image-editing applications.

  17. Analog Video Text and titles for television and taking care of analog tapes: • Titles for video productions can be created with an analog character generator. • Computers can create titles digitally using video and image-editing software. • New tapes should always be fast-forwarded to the end and then rewound, to ensure even tape tension.

  18. Digital Video • Video clip stored on any mass-storage device can be played back on a computer’s monitor without special hardware. • Setting up a production environment for making digital video, requires some hardware specifications. • Some specifications include computer with FireWire connection and cables, fast processor, plenty of RAM, fast and big hard disk.

  19. Digital Video • Digital video architecture. • Digital video compression.

  20. Digital Video Architecture • Digital video architecture consists of a format for encoding and playing back video files by a computer. • Architecture includes a player that can recognize and play files created for that format.

  21. Digital Video Compression • Digital video compression schemes or codecs is the algorithm used to compress (code) a video for delivery. • The codec then decodes the compressed video in real-time for fast playback. • Streaming audio and video starts playback as soon as enough data has transferred to the user’s computer to sustain this playback.

  22. Digital Video Compression • MPEG is a real-time video compression algorithm. • MPEG-4 includes numerous multimedia capabilities and is a preferred standard. • MPEG-7 (or Multimedia Content Description Interface) integrates information about motion video elements with their use.

  23. Video Recording and Tape Formats • Composite analog video. • Component analog video. • Composite digital. • Component digital. • ATSC digital TV.

  24. Composite Analog Video • Composite video combines the luminance and chroma information from the video signal. • Composite video produces lowest quality video and is most susceptible to generation loss. • Generation loss is the loss of quality that occurs while moving from original footage to editing master to copy.

  25. Component Analog Video • Component video separates the luminance and chroma information. • It improves the quality of the video and decreases generation loss. • In S-video, color and luminance information are kept on two separate tracks (Y/C) to improve the picture quality. • Betacam is a new portable professional video format which lays the signal on the tape in three component channels.

  26. Composite Digital • Composite digital recording formats combine the luminance and chroma information. • They sample the incoming waveforms and encode the information in binary (0/1) digital code. • It improves color and image resolution and eliminates generation loss.

  27. Component Digital • Component digital formats add the advantages of component signals to digital recording. • D-1 component digital format is an uncompressed format which has a very high quality image. • It uses a 19 mm (3/4-inch) tape in order to save data. • Several other digital component formats are DCT, Digital Betacam, DV format, DVCPRO, and DVCAM formats.

  28. ATSC Digital TV • These standards provide for digital STV and HDTV recordings that can be broadcast by digital TV transmitters to digital TV receivers. • ATSC standards also provide for enhanced TV bringing the interactivity of multimedia and the Web to broadcast television.

  29. Shooting and Editing Video • Import video and sound at the highest resolution and with the least amount of compression possible. • Resolution should be reduced and footage must be compressed later according to the requirements. • A steady shooting platform should always be used.

  30. Shooting and Editing Video • Good and even lighting is extremely important. • Blue screen in digital video editing applications is a popular technique for making multimedia. • Wide panoramic shots and camera motion should be avoided when shooting for a small computer window on CD-ROM or the Web.

  31. Figure 8-5 Good lighting is essential for quality video results

  32. Figure 8-6 This walking, jumping, and pointing actor was videotaped against a blue screen

  33. Optimizing Video Files for CD-ROM • CD-ROMs provide an excellent distribution medium for computer-based video. • When preparing video for CD-ROM distribution, interleave the audio track(s) with the video track. • Key frames should be used every 10 to 15 frames and the size of the video window must be kept small. • The Sorenson codec is optimized for CD-ROM playback.

  34. Summary • Digital video method is used for making and delivering video for multimedia. • Charge-coupled device (CCD) converts the light that has been reflected from an object through the camera’s lens.

  35. Summary • Various video standards are NTSC, PAL, SECAM, and ATSC DTV. • Categories of video standards are composite analog, component analog, composite digital, and component digital.

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